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Preparation, structure, and electronic properties of Fe3O4 films on the Fe(110)/M(110)/Al2O3(1120) substrate

Preparation, structure, and electronic properties of Fe3O4 films on the Fe(110)/M(110)/Al2O3(1120) substrate

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FONIN, Mikhail, Yuriy S. DEDKOV, Jörg MAYER, Ulrich RÜDIGER, Gernot GÜNTHERODT, 2003. Preparation, structure, and electronic properties of Fe3O4 films on the Fe(110)/M(110)/Al2O3(1120) substrate. In: Physical Review B. 68, 45414. Available under: doi: 10.1103/PhysRevB.68.045414

@article{Fonin2003Prepa-9398, title={Preparation, structure, and electronic properties of Fe3O4 films on the Fe(110)/M(110)/Al2O3(1120) substrate}, year={2003}, doi={10.1103/PhysRevB.68.045414}, volume={68}, journal={Physical Review B}, author={Fonin, Mikhail and Dedkov, Yuriy S. and Mayer, Jörg and Rüdiger, Ulrich and Güntherodt, Gernot}, note={Article Number: 45414} }

Preparation, structure, and electronic properties of Fe3O4 films on the Fe(110)/M(110)/Al2O3(1120) substrate deposit-license Dedkov, Yuriy S. Güntherodt, Gernot eng Mayer, Jörg Güntherodt, Gernot First publ. in: Physical Review B 68 (2003), 45414 2011-03-24T17:56:11Z 2011-03-24T17:56:11Z Rüdiger, Ulrich 2003 Fonin, Mikhail Fonin, Mikhail The surface and interface structure as well as the electronic properties of thin epitaxial Fe3O4(111) films prepared by in situ oxidation of thin Fe(110) films grown on Al2O3(1120) substrates using a Mo(110) buffer layer were investigated by low-energy electron diffraction (LEED), scanning tunneling microscopy (STM),<br />transmission electron microscopy (TEM), and spin-polarized angle-resolved photoemission spectroscopy (SPARPES). The annealing of Fe(110) films at 700 °C in an O2 atmosphere leads to the formation of epitaxial Fe3O4(111) films. Atomically resolved STM images of the Fe3O4(111) surface show a hexagonal symmetry with 6 Å periodicity. Well-controlled interface properties at the Fe3O4(111)/Fe(110) and Fe(110)/Mo(110) interfaces were confirmed by TEM. A high spin polarization value of about 2(6065)% was found near the Fermi energy EF at room temperature by means of SPARPES with a photon energy of hv=21.2 eV. The electronic structure and spin polarization are compared to the corresponding values recently found on epitaxial Fe3O4(111) films grown on W(110) single-crystal substrates. Rüdiger, Ulrich application/pdf Dedkov, Yuriy S. Mayer, Jörg

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